Method and apparatus for controlling uplink power of user equipment in carrier aggregation scenario
First Claim
1. A method for controlling uplink power of a user equipment in a carrier aggregation scenario, the method comprising:
- acquiring, by the user equipment, first maximum transmit power of the user equipment corresponding to a first subframe and second maximum transmit power of the user equipment corresponding to a second subframe; and
when the first maximum transmit power and the second maximum transmit power are different, performing, by the user equipment, power control over transmit power of multiple carriers in an overlap region, so that total transmit power of the multiple carriers in the overlap region after the power control is lower than or equal to a minimum value of the first maximum transmit power and the second maximum transmit power;
wherein, the first subframe and the second subframe are adjacent subframes, and the overlap region is a portion in which the first subframe and the second subframe overlap due to a difference in timing advance values of the multiple carriers.
1 Assignment
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Accused Products
Abstract
The present invention provides a method and an apparatus for controlling uplink power of a user equipment, where the method includes: separately acquiring first maximum transmit power of the user equipment corresponding to a first subframe and second maximum transmit power of the user equipment corresponding to a second subframe; and when the first maximum transmit power and the second maximum transmit power are different, using a minimum value of the first maximum transmit power and the second maximum transmit power as first configured maximum transmit power, and performing power control over transmit power of multiple carriers in an overlap region according to the first configured maximum transmit power, so that total transmit power of the multiple carriers in the overlap region after the power control is lower than or equal to the minimum value of the first maximum transmit power and the second maximum transmit power.
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Citations
26 Claims
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1. A method for controlling uplink power of a user equipment in a carrier aggregation scenario, the method comprising:
-
acquiring, by the user equipment, first maximum transmit power of the user equipment corresponding to a first subframe and second maximum transmit power of the user equipment corresponding to a second subframe; and when the first maximum transmit power and the second maximum transmit power are different, performing, by the user equipment, power control over transmit power of multiple carriers in an overlap region, so that total transmit power of the multiple carriers in the overlap region after the power control is lower than or equal to a minimum value of the first maximum transmit power and the second maximum transmit power; wherein, the first subframe and the second subframe are adjacent subframes, and the overlap region is a portion in which the first subframe and the second subframe overlap due to a difference in timing advance values of the multiple carriers. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13)
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2. The method according to claim 1, wherein performing power control over transmit power of multiple carriers in an overlap region comprises:
-
performing, according to a first configured maximum transmit power, power control over transmit power of the first subframe located in the overlap region and transmit power of the second subframe located in the overlap region, wherein the first configured maximum transmit power is any value or a minimum value of the first maximum transmit power and the second maximum transmit power;
orperforming, according to the first configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe and power of a symbol forming the overlap region in the second subframe, wherein the first configured maximum transmit power is any value or a minimum value of the first maximum transmit power and the second maximum transmit power;
orperforming power control over transmit power of samples in the overlap region according to the first configured maximum transmit power, wherein the first configured maximum transmit power is any value or a minimum value of the first maximum transmit power and the second maximum transmit power.
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3. The method according to claim 1, further comprising:
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acquiring, by the user equipment, an upper limit PCMAX_H_CA_1 of the first maximum transmit power by using a formula PCMAX_H_CA_1=min{10 log10Σ
PEMAX.C,PPowerclass} and according to maximum transmit power PEMAX.1 of a first carrier delivered by a network in the first subframe forming the overlap region, and maximum transmit power PEMAX.2 of a second carrier delivered by the network in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1 or the maximum transmit power PEMAX.2 is not allowed;acquiring, by the user equipment, a lower limit PCMAX_H_CA_1 of the first maximum transmit power according to the PEMAX.1 and the PEMAX.2 by using a formula PCMAX_H_CA_1=min{10 log10Σ
PEMAX.C−
□
Tc,PPowerClass−
max(MPR+A−
MPR, P−
MPR)−
□
Tc}; andacquiring, by the user equipment, first reference transmit power PCMAX_O1 according to the PCMAX_H_CA_1 and the PCMAX_L_CA_1, so that the PCMAX_O1 satisfies PCMAX_L_CA_1≦
PCMAX_O1≦
PCMAX_H_CA_1 wherein performing power control over transmit power of multiple carriers in an overlap region comprises;performing power control over transmit power of the first carrier and the second carrier in the overlap region by using the first reference transmit power; wherein, the first carrier is located in a first timing advance group;
the second carrier is located in a second timing advance group;
timing advance values of the first timing advance group and the second timing advance group are different;
C in the PEMAX.C is {1, 2};
the PPowerClass indicates a maximum power transmit capability of the UE;
the MPR, the A−
MPR, and the P−
MPR all indicate maximum power back-off; and
□
Tc=1.5 dB or □
Tc=0 dB.
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4. The method according to claim 3, wherein performing power control over the first carrier and the second carrier in the multiple carriers in the overlap region by using the first reference transmit power comprises:
-
using a minimum value of the first maximum transmit power and the first reference transmit power as second configured maximum transmit power, and performing, according to the second configured maximum transmit power, power control over transmit power of the first subframe located in the overlap region in the first carrier; and using a minimum value of the second maximum transmit power and the first reference transmit power as third configured maximum transmit power, and performing, according to the third configured maximum transmit power, power control over power of the second subframe located in the overlap region in the second carrier.
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5. The method according to claim 3, wherein performing power control over the first carrier and the second carrier in the multiple carriers in the overlap region by using the first reference transmit power comprises:
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using a minimum value of the first maximum transmit power and the first reference transmit power as second configured maximum transmit power, and performing, according to the second configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the first carrier; and using a minimum value of the second maximum transmit power and the first reference transmit power as third configured maximum transmit power, and performing, according to the third configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the second carrier.
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6. The method according to claim 3, wherein performing power control over the first carrier and the second carrier in the multiple carriers in the overlap region by using the first reference transmit power comprises:
performing power control over transmit power of samples in the overlap region according to the first reference transmit power.
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7. The method according to claim 1, further comprising:
-
acquiring, by the user equipment, an upper limit PCMAX_H_CA_2 of the second maximum transmit power by using a formula PCMAX_H_CA_2=min{10 log10Σ
PEMAX.C,PPowerclass} and according to maximum transmit power PEMAX.1 of a first carrier delivered by a network in the first subframe located in the overlap region, maximum transmit power PEMAX.2 of a second carrier delivered by the network in the first subframe located in the overlap region, and maximum transmit power PEMAX.3 of a third carrier delivered by the network in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1, the maximum transmit power PEMAX.2, or the maximum transmit power PEMAX.3 is not allowed;acquiring, by the user equipment, an upper limit PCMAX_H_CA_3 of third maximum transmit power by using a formula PCMAX_H_CA_3=min{10 log10Σ
PEMAX.N,PPowerclass} and according to the maximum transmit power PEMAX.1 of the first carrier in the first subframe located in the overlap region, maximum transmit power PEMAX.4 of the second carrier in the second subframe located in the overlap region, and the maximum transmit power PEMAX.3 of the third carrier delivered by the network in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1, the maximum transmit power PEMAX.4, or the maximum transmit power PEMAX.3 is not allowed;acquiring, by the user equipment, a lower limit PCMAX_L_CA_2 of the second maximum transmit power according to the PEMAX.1, the PEMAX.2, and the PEMAX.3 by using a formula PCMAX_L_CA_2=min{10 log10Σ
PEMAX.C−
□
Tc,PPowerClass−
max(MPR+A−
MPR, P−
MPR)−
□
Tc};acquiring, by the user equipment, a lower limit PCMAX_L_CA_3 of the third maximum transmit power according to the PEMAX.1, the PEMAX.4, and the PEMAX.3 by using a formula PCMAX_L_CA_3=min{10 log10 Σ
PEMAX.N−
□
TN,PPowerclass−
max(MPR+A−
MPR, P−
MPR)−
□
TN};acquiring, by the user equipment, second reference transmit power PCMAX_O2 according to the PCMAX_H_CA_2 and the PCMAX_L_CA_2, so that the PCMAX_O2 satisfies PCMAX_L_CA_2≦
PCMAX_O2≦
PCMAX_H_CA_2; andacquiring, by the user equipment, third reference transmit power PCMAX_O3 according to the PCMAX_H_CA_3 and the PCMAX_L_CA_3, so that the PCMAX_O3 satisfies PCMAX_L_CA_3≦
PCMAX_O3≦
PCMAX_H_CA_3, wherein performing power control over transmit power of multiple carriers in an overlap region comprises;performing power control over transmit power of the first carrier, the second carrier, and the third carrier in the overlap region by using the second reference transmit power and the third reference transmit power; wherein, the first carrier is located in a first timing advance group;
the second carrier is located in a second timing advance group;
the third carrier is located in a third timing advance group;
timing advance values of the first timing advance group, the second timing advance group, and the third timing advance group are different;
C in the PEMAX.C is {1,2,3};
N in the PEMAX.N is {1,4,3};
the PPowerClass indicates a maximum power transmit capability of the UE;
the MPR, the A−
MPR, and the P−
MPR all indicate maximum power back-off; and
□
Tc=1.5 dB or □
Tc=0 dB.
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8. The method according to claim 7, wherein performing power control over transmit power of the first carrier, the second carrier, and the third carrier in the overlap region by using the second reference transmit power and the third reference transmit power comprises:
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using a minimum value of the first maximum transmit power, the second reference transmit power, and the third reference transmit power as fourth configured maximum transmit power, and performing, according to the fourth configured maximum transmit power, power control over power of the first subframe located in the overlap region in the first carrier; using a minimum value of the first maximum transmit power and the second reference transmit power as fifth configured maximum transmit power, and performing, according to the fifth configured maximum transmit power, power control over power of the first subframe located in the overlap region in the second carrier; using a minimum value of the second maximum transmit power and the third reference transmit power as sixth configured maximum transmit power, and performing, according to the sixth configured maximum transmit power, power control over power of the second subframe located in the overlap region in the second carrier; and using a minimum value of the second maximum transmit power, the second reference transmit power, and the third reference transmit power as seventh configured maximum transmit power, and performing, according to the seventh configured maximum transmit power, power control over power of the second subframe located in the overlap region in the third carrier.
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9. The method according to claim 7, wherein performing power control over transmit power of the first carrier, the second carrier, and the third carrier in the overlap region by using the second reference transmit power and the third reference transmit power comprises:
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using a minimum value of the first maximum transmit power, the second reference transmit power, and the third reference transmit power as fourth configured maximum transmit power, and performing, according to the fourth configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the first carrier; using a minimum value of the first maximum transmit power and the second reference transmit power as fifth configured maximum transmit power, and performing, according to the fifth configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the second carrier; using a minimum value of the second maximum transmit power and the third reference transmit power as sixth configured maximum transmit power, and performing, according to the sixth configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the second carrier; and using a minimum value of the second maximum transmit power, the second reference transmit power, and the third reference transmit power as seventh configured maximum transmit power, and performing, according to the seventh configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the third carrier.
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10. The method according to claim 1, further comprising:
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acquiring, by the user equipment, an upper limit PCMAX_H_CA_4 of fourth maximum transmit power by using a formula PCMAX_H_CA_3=min{10 log10Σ
PEMAX.C,PPowerClass} and according to maximum transmit power PEMAX.1 of a first carrier delivered by a network in the first subframe located in the overlap region, maximum transmit power PEMAX.2 of a second carrier delivered by the network in the first subframe located in the overlap region, maximum transmit power PEMAX.3 of a third carrier delivered by the network in the first subframe located in the overlap region, and maximum transmit power PEMAX.4 of a fourth carrier delivered by the network in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1, the maximum transmit power PEMAX.2, the maximum transmit power PEMAX.3, or the maximum transmit power PEMAX.4 is not allowed;acquiring, by the user equipment, an upper limit PCMAX_H_CA_5 of fifth maximum transmit power by using a formula PCMAX_H_CA_5=min{10 log10Σ
PEMAX.N,PPowerClass} and according to the maximum transmit power PEMAX.1 of the first carrier in the first subframe located in the overlap region, the maximum transmit power PEMAX.2 of the second carrier in the first subframe located in the overlap region, maximum transmit power PEMAX.5 of the third carrier in the second subframe located in the overlap region, and the maximum transmit power PEMAX.4 of the fourth carrier in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1, the maximum transmit power PEMAX.2, the maximum transmit power PEMAX.5, or the maximum transmit power PEMAX.4 is not allowed;acquiring, by the user equipment, an upper limit PCMAX_H_CA_6 of sixth maximum transmit power by using a formula PCMAX_H_CA_6=min{10 log10Σ
PEMAX.N,PPowerClass} and according to the maximum transmit power PEMAX.1 of the first carrier in the first subframe located in the overlap region, maximum transmit power PEMAX.6 of the second carrier in the second subframe located in the overlap region, the maximum transmit power PEMAX.5 of the third carrier in the second subframe located in the overlap region, and the maximum transmit power PEMAX.4 of the fourth carrier in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1, the maximum transmit power PEMAX.6, the maximum transmit power PEMAX.5, or the maximum transmit power PEMAX.4 is not allowed;acquiring, by the user equipment, a lower limit PCMAX_L_CA_4 of the fourth maximum transmit power according to the PEMAX.1, the PEMAX.2, the PEMAX.3, and the PEMAX.4 by using a formula PCMAX_L_CA_4=min{10 log10 Σ
PEMAX.C−
□
Tc,PPowerclass−
max(MPR+A−
MPR, P−
MPR)−
□
Tc};acquiring, by the user equipment, a lower limit PCMAX_L_CA_5 of the fifth maximum transmit power according to the PEMAX.1, the PEMAX.2, the PEMAX.5, and the PEMAX.4 using a formula PCMAX_L_CA_5=min{10 log10 Σ
PEMAX.N−
□
TN,PPowerclass−
max(MPR+A−
MPR, P−
MPR)−
□
TN};acquiring, by the user equipment, a lower limit PCMAX_L_CA_6 of the sixth maximum transmit power according to the PEMAX.1, the PEMAX.6, the PEMAX.5, and the PEMAX.4 by using a formula PCMAX_L_CA_6=min{10 log10 Σ
PEMAX.M−
□
TN,PPowerclass−
max(MPR+A−
MPR, P−
MPR)−
□
TN};acquiring, by the user equipment, fourth reference transmit power PCMAX_O4 according to the PCMAX_H_CA_4 and the PCMAX_L_CA_4, so that the PCMAX_O4 satisfies PCMAX_L_CA_4≦
PCMAX_O4≦
PCMAX_H_CA_4;acquiring, by the user equipment, fourth reference transmit power PCMAX_O5 according to the PCMAX_H_CA_5 and the PCMAX_L_CA_5, so that the PCMAX_O5 satisfies PCMAX_L_CA_5≦
PCMAX_O5≦
PCMAX_H_CA_5;acquiring, by the user equipment, fourth reference transmit power PCMAX_O6 according to the PCMAX_H_CA_6 and the PCMAX_L_CA_6, so that the PCMAX_O6 satisfies PCMAX_L_CA_6≦
PCMAX_O6≦
PCMAX_H_CA_6, wherein the performing power control over transmit power of multiple carriers in an overlap region comprises;performing power control over transmit power of the first carrier, the second carrier, the third carrier, and the fourth carrier in the overlap region by using the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power; wherein, the first carrier bearer is located in a first timing advance group;
the second carrier is located in a second timing advance group;
the third carrier is located in a third timing advance group;
the fourth carrier is located in a fourth timing advance group;
timing advance values of the first timing advance group, the second timing advance group, the third timing advance group, and the fourth timing advance group are different;
C in the PEMAX.C is {1,2,3,4};
N in the PEMAX.N is {1,2,5,4};
M in the PEMAX.M is {1,6,5,4};
the PPowerClass indicates a maximum power transmit capability of the UE;
the MPR, the A−
MPR, and the P−
MPR all indicate maximum power back-off; and
□
Tc=1.5 dB or □
Tc=0 dB.
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11. The method according to claim 10, wherein performing power control over transmit power of the first carrier, the second carrier, the third carrier, and the fourth carrier in the overlap region by using the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power comprises:
-
using a minimum value of the first maximum transmit power, the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power as ninth configured maximum transmit power, and performing, according to the ninth configured maximum transmit power, power control over power of the first subframe located in the overlap region in the first carrier; using a minimum value of the first maximum transmit power, the fourth reference transmit power, and the fifth reference transmit power as tenth configured maximum transmit power, and performing, according to the tenth configured maximum transmit power, power control over power of the first subframe located in the overlap region in the second carrier; using a minimum value of the second maximum transmit power and the sixth reference transmit power as eleventh configured maximum transmit power, and performing, according to the eleventh configured maximum transmit power, power control over power of the second subframe located in the overlap region in the second carrier; using a minimum value of the first maximum transmit power and the fourth reference transmit power as twelfth configured maximum transmit power, and performing, according to the twelfth configured maximum transmit power, power control over power of the first subframe located in the overlap region in the third carrier; using a minimum value of the second maximum transmit power, the fifth reference transmit power, and the sixth reference transmit power as thirteenth configured maximum transmit power, and performing, according to the thirteenth configured maximum transmit power, power control over power of the second subframe located in the overlap region in the third carrier; and using the minimum value of the first maximum transmit power, the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power as fourteenth configured maximum transmit power, and performing, according to the fourteenth configured maximum transmit power, power control over power of the second subframe located in the overlap region in the fourth carrier.
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12. The method according to claim 10, wherein performing power control over transmit power of the first carrier, the second carrier, the third carrier, and the fourth carrier in the overlap region by using the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power comprises:
-
using a minimum value of the first maximum transmit power, the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power as ninth configured maximum transmit power, and performing, according to the ninth configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the first carrier; using a minimum value of the first maximum transmit power, the fourth reference transmit power, and the fifth reference transmit power as tenth configured maximum transmit power, and performing, according to the tenth configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the second carrier; using a minimum value of the second maximum transmit power and the sixth reference transmit power as eleventh configured maximum transmit power, and performing, according to the eleventh configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the second carrier; using a minimum value of the first maximum transmit power and the fourth reference transmit power as twelfth configured maximum transmit power, and performing, according to the twelfth configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the third carrier; using a minimum value of the second maximum transmit power, the fifth reference transmit power, and the sixth reference transmit power as thirteenth configured maximum transmit power, and performing, according to the thirteenth configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the third carrier; and using the minimum value of the first maximum transmit power, the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power as fourteenth configured maximum transmit power, and performing, according to the fourteenth configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the fourth carrier.
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13. The method according to claim 10, wherein performing power control over transmit power of the first carrier, the second carrier, the third carrier, and the fourth carrier in the overlap region by using the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power comprises:
-
using a minimum value of the fourth reference transmit power, the fifth reference transmit power, and the third reference transmit power as fifteenth configured maximum transmit power, and separately performing, according to the fifteenth configured maximum transmit power, power control over transmit power of samples in the overlap region in the first subframe in the first carrier and transmit power of samples in the overlap region in the second subframe in the fourth carrier; using a minimum value of the fourth reference transmit power and the fifth reference transmit power as sixteenth configured maximum transmit power, and performing power control over transmit power of samples in the overlap region in the first subframe in the second carrier according to the sixteenth configured maximum transmit power; performing power control over transmit power of samples in the overlap region in the second subframe in the second carrier according to the sixth reference transmit power; performing power control over transmit power of samples in the overlap region in the first subframe in the third carrier according to the fourth reference transmit power; and using a minimum value of the fifth reference transmit power and the sixth reference transmit power as seventeenth configured maximum transmit power, and performing power control over transmit power of samples in the overlap region in the second subframe in the third carrier according to the seventeenth configured maximum transmit power.
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2. The method according to claim 1, wherein performing power control over transmit power of multiple carriers in an overlap region comprises:
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14. A user equipment for controlling uplink power of the user equipment in a carrier aggregation scenario, the user equipment comprising a processor and a memory storing instructions that, when executed by the processor, cause the user equipment to:
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acquire first maximum transmit power of the user equipment corresponding to a first subframe and second maximum transmit power of the user equipment corresponding to a second subframe; and perform power control over transmit power of multiple carriers in an overlap region when the first maximum transmit power acquired by the acquiring module and the second maximum transmit power acquired by the acquiring module are different, so that total transmit power of the multiple carriers in the overlap region after the power control is lower than or equal to a minimum value of the first maximum transmit power and the second maximum transmit power; wherein, the first subframe and the second subframe are adjacent subframes, and the overlap region is a portion in which the first subframe and the second subframe overlap due to a difference in timing advance values of the multiple carriers. - View Dependent Claims (15, 16, 17, 18, 19, 20, 21, 22, 23, 24, 25, 26)
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15. The user equipment according to claim 14, wherein to the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
perform, according to a first configured maximum transmit power, power control over transmit power of the first subframe located in the overlap region and transmit power of the second subframe located in the overlap region, wherein the first configured maximum transmit power is any value or a minimum value of the first maximum transmit power and the second maximum transmit power;
orperform, according to the first configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe and power of a symbol forming the overlap region in the second subframe, wherein the first configured maximum transmit power is any value or a minimum value of the first maximum transmit power and the second maximum transmit power;
orperform power control over transmit power of samples in the overlap region according to the first configured maximum transmit power, wherein the first configured maximum transmit power is any value or a minimum value of the first maximum transmit power and the second maximum transmit power.
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16. The user equipment according to claim 14, wherein the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
acquire an upper limit PCMAX_H_CA_1 of the first maximum transmit power by using a formula PCMAX_H_CA_1=min{10 log10Σ
PEMAX.C,PPowerClass} and according to maximum transmit power PEMAX.1 of a first carrier delivered by a network in the first subframe located in the overlap region, and maximum transmit power PEMAX.2 of a second carrier delivered by the network in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1 or the maximum transmit power PEMAX.2 is not allowed; andacquire a lower limit PCMAX_L_CA_1 of the first maximum transmit power according to the PEMAX.1 and the PEMAX.2 by using a formula PCMAX_L_CA_1=min{10 log10 Σ
PEMAX.C−
□
Tc,PPowerclass−
max(MPR+A−
MPR, P−
MPR)−
□
Tc},acquire first reference transmit power PCMAX_O1 according to the PCMAX_H_CA_1 acquired by the upper limit calculating module and the PCMAX_L_CA_1 acquired by the lower limit calculating module, so that the PCMAX_O1 satisfies PCMAX_L_CA_1≦
PCMAX_O1≦
PCMAX_H_CA_1; andperform power control over transmit power of the first carrier and the second carrier in the overlap region by using the first reference transmit power; wherein, the first carrier is located in a first timing advance group;
the second carrier is located in a second timing advance group;
timing advance values of the first timing advance group and the second timing advance group are different;
C in the PEMAX.C is {1,2};
the PPowerClass indicates a maximum power transmit capability of the UE;
the MPR, the A−
MPR, and the P−
MPR all indicate maximum power back-off; and
□
Tc=1.5 dB or □
Tc=0 dB.
-
-
17. The user equipment according to claim 16, wherein the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
use a minimum value of the first maximum transmit power and the first reference transmit power as second configured maximum transmit power; and perform, according to the second configured maximum transmit power, power control over power of the first subframe located in the overlap region in the first carrier; use a minimum value of the second maximum transmit power and the first reference transmit power as third configured maximum transmit power; and perform, according to the third configured maximum transmit power, power control over power of the second subframe located in the overlap region in the second carrier.
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18. The user equipment according to claim 16, wherein the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
use a minimum value of the first maximum transmit power and the first reference transmit power as second configured maximum transmit power; and perform, according to the second configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the first carrier, wherein use a minimum value of the second maximum transmit power and the first reference transmit power as third configured maximum transmit power; and perform, according to the third configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the second carrier.
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19. The user equipment according to claim 16, wherein the memory further comprises instructions that, when executed by the processor, cause the user equipment to perform power control over transmit power of samples in the overlap region according to the first reference transmit power.
-
20. The user equipment according to claim 14, wherein the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
acquire an upper limit PCMAX_H_CA_2 of the second maximum transmit power by using a formula PCMAX_H_CA_1=min{10 log10Σ
PEMAX.C,PPowerClass} and according to maximum transmit power PEMAX.1 of a first carrier delivered by a network in the first subframe located in the overlap region, maximum transmit power PEMAX.2 of a second carrier delivered by the network in the first subframe located in the overlap region, and maximum transmit power PEMAX.3 of a third carrier delivered by the network in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1, the maximum transmit power PEMAX.2, or the maximum transmit power PEMAX.3 is not allowed,acquire an upper limit PCMAX_H_CA_3 of third maximum transmit power by using a formula PCMAX_H_CA_3=min{10 log10Σ
PEMAX.C,PPowerClass} and according to the maximum transmit power of the first carrier in the first subframe located in the overlap region, maximum transmit power PEMAX.4 of the second carrier in the second subframe located in the overlap region, and the maximum transmit power PEMAX.3 of the third carrier delivered by the network in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1, the maximum transmit power PEMAX.4, or the maximum transmit power PEMAX.3 is not allowed; andacquire a lower limit PCMAX_L_CA_2 of the second maximum transmit power according to the PEMAX.1, the PEMAX.2, and the PEMAX.3 by using a formula PCMAX_L_CA_2=min{10 log10 Σ
PEMAX.C−
□
Tc,PPowerclass−
max(MPR+A−
MPR, P−
MPR)−
□
Tc},configured to acquire a lower limit PCMAX_L_CA_2 of the third maximum transmit power according to the PEMAX.1, the PEMAX.4, and the PEMAX.3 by using a formula PCMAX_L_CA_3=min{10 log10 Σ
PEMAX.N−
□
TN,PPowerclass−
max(MPR+A−
MPR, P−
MPR)−
□
TN},acquire second reference transmit power PCMAX_O2 according to the PCMAX_H_CA_2 acquired by the upper limit calculating module and the PCMAX_L_CA_2 acquired by the lower limit calculating module, so that the PCMAX_O2 satisfies PCMAX_L_CA_2≦
PCMAX_O2≦
PCMAX_H_CA_2;acquire second reference transmit power PCMAX_O3 according to the PCMAX_H_CA_3 acquired by the upper limit calculating module and the PCMAX_L_CA_3 acquired by the lower limit calculating module, so that the PCMAX_O3 satisfies PCMAX_L_CA_3≦
PCMAX_O3≦
PCMAX_H_CA_3; andperform power control over transmit power of the first carrier, the second carrier, and the third carrier in the overlap region by using the second reference transmit power and the third reference transmit power; wherein, the first carrier bearer is located in a first timing advance group;
the second carrier is located in a second timing advance group;
the third carrier is located in a third timing advance group;
timing advance values of the first timing advance group, the second timing advance group, and the third timing advance group are different;
C in the PEMAX.C is {1,2,3};
N in the PEMAX.N is {1,4,3};
the PPowerClass indicates a maximum power transmit capability of the UE;
the MPR, the A−
MPR, and the P−
MPR all indicate maximum power back-off; and
□
Tc=1.5 dB or □
Tc=0 dB.
-
-
21. The user equipment according to claim 20, wherein the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
use a minimum value of the first maximum transmit power, the second reference transmit power, and the third reference transmit power as fourth configured maximum transmit power; and perform, according to the fourth configured maximum transmit power, power control over power of the first subframe located in the overlap region in the first carrier, use a minimum value of the first maximum transmit power and the second reference transmit power as fifth configured maximum transmit power; perform, according to the fifth configured maximum transmit power, power control over power of the first subframe located in the overlap region in the second carrier; use a minimum value of the second maximum transmit power and the third reference transmit power as sixth configured maximum transmit power; perform, according to the sixth configured maximum transmit power, power control over power of the second subframe located in the overlap region in the second carrier; use a minimum value of the second maximum transmit power, the second reference transmit power, and the third reference transmit power as seventh configured maximum transmit power; and perform, according to the seventh configured maximum transmit power, power control over power of the second subframe located in the overlap region in the third carrier.
-
-
22. The user equipment according to claim 20, wherein the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
use a minimum value of the first maximum transmit power, the second reference transmit power, and the third reference transmit power as fourth configured maximum transmit power; and perform, according to the fourth configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the first carrier, use a minimum value of the first maximum transmit power and the second reference transmit power as fifth configured maximum transmit power; perform, according to the fifth configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the second carrier; use a minimum value of the second maximum transmit power and the third reference transmit power as sixth configured maximum transmit power; perform, according to the sixth configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the second carrier; use a minimum value of the second maximum transmit power, the second reference transmit power, and the third reference transmit power as seventh configured maximum transmit power; and perform, according to the seventh configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the third carrier.
-
-
23. The user equipment according to claim 14, wherein the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
acquire an upper limit PCMAX_H_CA_4 of fourth maximum transmit power by using a formula PCMAX_H_CA_4=min{10 log10Σ
PEMAX.C,PPowerClass} and according to maximum transmit power PEMAX.1 of a first carrier delivered by a network in the first subframe located in the overlap region, maximum transmit power PEMAX.2 of a second carrier delivered by the network in the first subframe located in the overlap region, maximum transmit power PEMAX.3 of a third carrier delivered by the network in the first subframe located in the overlap region, and maximum transmit power PEMAX.4 of a fourth carrier delivered by the network in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1, the maximum transmit power PEMAX.2, the maximum transmit power PEMAX.3, or the maximum transmit power PEMAX.4 is not allowed,acquire an upper limit PCMAX_H_CA_5 of fifth maximum transmit power by using a formula PCMAX_H_CA_5=min{10 log10Σ
PEMAX.N,PPowerClass} and according to the maximum transmit power PEMAX.1 of the first carrier in the first subframe located in the overlap region, the maximum transmit power PEMAX.2 of the second carrier in the first subframe located in the overlap region, maximum transmit power PEMAX.5 of the third carrier in the second subframe located in the overlap region, and the maximum transmit power PEMAX.4 of the fourth carrier in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1, the maximum transmit power PEMAX.2, the maximum transmit power PEMAX.5, or the maximum transmit power PEMAX.4 is not allowed; andacquire an upper limit PCMAX_H_CA_6 of sixth maximum transmit power by using a formula PCMAX_H_CA_6=min{10 log10Σ
PEMAX.N,PPowerClass} and according to the maximum transmit power PEMAX.1 of the first carrier in the first subframe located in the overlap region, maximum transmit power PEMAX.6 of the second carrier in the second subframe located in the overlap region, the maximum transmit power PEMAX.5 of the third carrier in the second subframe located in the overlap region, and the maximum transmit power PEMAX.4 of the fourth carrier in the second subframe located in the overlap region, wherein exceeding the maximum transmit power PEMAX.1, the maximum transmit power PEMAX.6, the maximum transmit power PEMAX.5, or the maximum transmit power PEMAX.4 is not allowed; andacquire a lower limit PCMAX_L_CA_4 of the fourth maximum transmit power according to the PEMAX.1, the PEMAX.2, the PEMAX.3 and the PEMAX.4 by using a formula PCMAX_L_CA_4=min{10 log10 Σ
PEMAX.C−
□
Tc,PPowerclass−
max(MPR+A−
MPR, P−
MPR)−
□
Tc},acquire a lower limit PCMAX_L_CA_5 of the fourth maximum transmit power according to the PEMAX.1, the PEMAX.2, the PEMAX.5 and the PEMAX.4 by using a formula PCMAX_L_CA_5=min{10 log10 Σ
PEMAX.N−
□
TN,PPowerclass−
max(MPR+A−
MPR, P−
MPR)−
□
TN};acquire a lower limit PCMAX_L_CA_6 of the fourth maximum transmit power according to the PEMAX.1, the PEMAX.6, the PEMAX.5, and the PEMAX.4 by using a formula PCMAX_L_CA_6=min{10 log10 Σ
PEMAX.M−
□
TN,PPowerclass−
max(MPR+A−
MPR, P−
MPR)−
□
TN};acquire fourth reference transmit power PCMAX_O4 according to the PCMAX_H_CA_4 acquired by the upper limit calculating module and the PCMAX_L_CA_4 acquired by the lower limit calculating module, so that the PCMAX_O4 satisfies PCMAX_L_CA_4≦
PCMAX_O4≦
PCMAX_H_CA_4;acquire fourth reference transmit power PCMAX_O5 according to the PCMAX_H_CA_5 acquired by the upper limit calculating module and the PCMAX_L_CA_5 acquired by the lower limit calculating module, so that the PCMAX_O5 satisfies PCMAX_L_CA_5≦
PCMAX_O5≦
PCMAX_H_CA_5;acquire sixth reference transmit power PCMAX_O6 according to the PCMAX_H_CA_6 acquired by the upper limit calculating module and the PCMAX_L_CA_6 acquired by the lower limit calculating module, so that the PCMAX_O6 satisfies PCMAX_L_CA_6≦
PCMAX_O6≦
PCMAX_H_CA_6; andperform power control over transmit power of the first carrier, the second carrier, the third carrier, and the fourth carrier in the overlap region by using the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power; wherein, the first carrier bearer is located in a first timing advance group;
the second carrier is located in a second timing advance group;
the third carrier is located in a third timing advance group;
the fourth carrier is located in a fourth timing advance group;
timing advance values of the first timing advance group, the second timing advance group, the third timing advance group, and the fourth timing advance group are different;
C in the PEMAX.C is {1,2,3,4};
N in the PEMAX.N is {1,2,5,4};
M in the PEMAX.M is {1,6,5,4};
the PPowerClass indicates a maximum power transmit capability of the UE;
the MPR, the A−
MPR, and the P−
MPR all indicate maximum power back-off; and
□
Tc=1.5 dB or □
Tc=0 dB.
-
-
24. The user equipment according to claim 23, wherein the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
use a minimum value of the first maximum transmit power, the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power as ninth configured maximum transmit power; and perform, according to the ninth configured maximum transmit power, power control over power of the first subframe located in the overlap region in the first carrier, use a minimum value of the first maximum transmit power, the fourth reference transmit power, and the fifth reference transmit power as tenth configured maximum transmit power; perform, according to the tenth configured maximum transmit power, power control over power of the first subframe located in the overlap region in the second carrier; the configuring unit is further configured to use a minimum value of the second maximum transmit power and the sixth reference transmit power as eleventh configured maximum transmit power; perform, according to the eleventh configured maximum transmit power, power control over power of the second subframe located in the overlap region in the second carrier; use a minimum value of the first maximum transmit power and the fourth reference transmit power as twelfth configured maximum transmit power; perform, according to the twelfth configured maximum transmit power, power control over power of the first subframe located in the overlap region in the third carrier; use a minimum value of the second maximum transmit power, the fifth reference transmit power, and the sixth reference transmit power as thirteenth configured maximum transmit power; perform, according to the thirteenth configured maximum transmit power, power control over power of the second subframe located in the overlap region in the third carrier; use any value or the minimum value of the first maximum transmit power, the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power as fourteenth configured maximum transmit power; and perform, according to the fourteenth configured maximum transmit power, power control over power of the second subframe located in the overlap region in the fourth carrier.
-
-
25. The user equipment according to claim 23, wherein the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
use a minimum value of the first maximum transmit power, the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power as ninth configured maximum transmit power; and perform, according to the ninth configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the first carried; use a minimum value of the first maximum transmit power, the fourth reference transmit power, and the fifth reference transmit power as tenth configured maximum transmit power; perform, according to the tenth configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the second carrier; use a minimum value of the second maximum transmit power and the sixth reference transmit power as eleventh configured maximum transmit power; perform, according to the eleventh configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the second carrier; use a minimum value of the first maximum transmit power and the fourth reference transmit power as twelfth configured maximum transmit power; perform, according to the twelfth configured maximum transmit power, power control over power of a symbol forming the overlap region in the first subframe in the third carrier; use a minimum value of the second maximum transmit power, the fifth reference transmit power, and the sixth reference transmit power as thirteenth configured maximum transmit power; perform, according to the thirteenth configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the third carrier; use the minimum value of the first maximum transmit power, the fourth reference transmit power, the fifth reference transmit power, and the sixth reference transmit power as fourteenth configured maximum transmit power; and perform, according to the fourteenth configured maximum transmit power, power control over power of a symbol forming the overlap region in the second subframe in the fourth carrier.
-
-
26. The user equipment according to claim 23, wherein the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
use a minimum value of the fourth reference transmit power, the fifth reference transmit power, and the third reference transmit power as fifteenth configured maximum transmit power; and perform, according to the fifteenth configured maximum transmit power, power control over transmit power of samples in the overlap region in the first subframe in the first carrier and transmit power of samples in the overlap region in the second subframe in the fourth carrier, use a minimum value of the fourth reference transmit power and the fifth reference transmit power as sixteenth configured maximum transmit power; perform power control over transmit power of samples in the overlap region in the first subframe in the second carrier according to the sixteenth configured maximum transmit power; perform power control over transmit power of samples in the overlap region in the second subframe in the second carrier according to the sixth reference transmit power; perform power control over transmit power of samples in the overlap region in the first subframe in the third carrier according to the fourth reference transmit power; use any value or a minimum value of the fifth reference transmit power and the sixth reference transmit power as seventeenth configured maximum transmit power; and perform power control over transmit power of samples in the overlap region in the second subframe in the third carrier according to the seventeenth configured maximum transmit power.
-
-
15. The user equipment according to claim 14, wherein to the memory further comprises instructions that, when executed by the processor, cause the user equipment to:
-
Specification
- Resources
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Current AssigneeHuawei Technologies Co., Ltd. (Huawei Investment & Holding Co., Ltd.)
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Original AssigneeHuawei Technologies Co., Ltd. (Huawei Investment & Holding Co., Ltd.)
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InventorsZhang, Xingwei, Fan, Xiaoan, Xue, Lixia
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Primary Examiner(s)Gesesse, Tilahun B
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Application NumberUS14/627,975Publication NumberTime in Patent Office711 DaysField of Search455/522, 455/69, 370/252, 370/329US Class Current1/1CPC Class CodesH04L 5/0042 intra-user or intra-termina...H04W 52/146 Uplink power controlH04W 52/34 TPC management, i.e. sharin...H04W 52/367 Power values between minimu...H04W 72/0446 Resources in time domain, e...H04W 72/0473 the resource being transmis...